Clinical profile and treatment outcomes of idiopathic intracranial hypertension: a multicenter study from Korea

Background Currently, there is a relative lack of detailed reports regarding clinical presentation and outcome of idiopathic intracranial hypertension in Asians. This study aims to describe the clinical features and treatment outcomes of Korean patients with idiopathic intracranial hypertension. Methods We prospectively recruited patients with idiopathic intracranial hypertension from one hospital and retrospectively analyzed the medical records of 11 hospitals in Korea. We collected data regarding preceding medical conditions or suspected medication exposure, headache phenotypes, other associated symptoms, detailed neuroimaging findings, treatments, and outcomes after 1–2 and 3–6 months of treatment. Results Fifty-nine (83.1% women) patients were included. The mean body mass index was 29.11 (standard deviation, 5.87) kg/m2; only 27 patients (45.8%) had a body mass index of ≥ 30 kg/m2. Fifty-one (86.4%) patients experienced headaches, patterns of which included chronic migraine (15/51 [29.4%]), episodic migraine (8/51 [15.7%]), probable migraine (4/51 [7.8%]), chronic tension-type headache (3/51 [5.9%]), episodic tension-type headache (2/51 [3.9%]), probable tension-type headache (2/51 [3.9%]), and unclassified (17/51 [33.3%]). Medication overuse headache was diagnosed in 4/51 (7.8%) patients. After 3–6 months of treatment, the intracranial pressure normalized in 8/32 (25.0%), improved in 17/32 (53.1%), no changed in 7/32 (21.9%), and worsened in none. Over the same period, headaches remitted or significantly improved by more than 50% in 24/39 patients (61.5%), improved less than 50% in 9/39 (23.1%), and persisted or worsened in 6/39 (15.4%) patients. Conclusion Our findings suggest that the features of Asian patients with idiopathic intracranial hypertension may be atypical (i.e., less likely obese, less female predominance). A wide spectrum of headache phenotypes was observed. Medical treatment resulted in overall favorable short-term outcomes; however, the headaches did not improve in a small proportion of patients.


Background
Idiopathic intracranial hypertension (IIH) is a rare condition characterized by increased cerebrospinal fluid (CSF) pressure, in the absence of ventriculomegaly, mass lesions, underlying infection, or malignancy [1,2], which was previously known as benign intracranial hypertension or pseudotumor cerebral syndrome.Despite its benign nomenclature, IIH can cause severe headaches, vision disturbance or loss, and severe functional impairment, necessitating invasive procedures such as CSF shunting or bariatric surgery [3][4][5][6][7].
The criteria for diagnosing increased CSF pressure have evolved over time.The International Classification of Headache Disorders (ICHD), 2nd Edition, published in 2004, defined cut-off values of IIH as 20.0 cmCSF in nonobese and 25.0 cmCSF in obese individuals.The International Classification of Headache Disorders, 3rd Edition (ICHD-3), published in 2018, revised these values to 25.0 cmCSF for the general population and 28.0 cmCSF for obese children [8][9][10][11].Concurrently, obesity, defined as body mass index (BMI) of 30 or more, had prevalence rates of 5.2% and 7.3% in Korea and 42.4% and 42.0% in the United States in 2018 and 2022, respectively.Significant correlations between IIH and both obesity and socioeconomic disadvantage have been documented [12][13][14][15], suggesting that relying solely on CSF pressure for the diagnosis might be insufficient [16].
Ophthalmological and neuroradiological findings can be used to support the diagnosis of IIH.Papilledema with normal brain parenchyma and absence of hydrocephalus is a hallmark of IIH.A combination of several imaging findings has been recognized as capable of providing supportive evidence of IIH, including empty sella, flattening of the posterior aspect of the globe, distention of the perioptic subarachnoid space with or without a tortuous optic nerve, and transverse venous sinus stenosis [17,18].In cases lacking papilledema, IIH without papilledema (IIHWOP) is diagnosed based on unilateral or bilateral sixth cranial nerve palsy, and a minimum of three neuroradiological findings [3].Moreover, a diagnosis of probable IIH is considered when papilledema is present, but CSF pressure is below these thresholds, as per the criteria updated by Friedman [1].
A discrepancy in IIH incidence between regions has been noted, with research showing a markedly lower prevalence in Asia than in Europe and North America [12].The incidence of IIH in Japan has been estimated as 0.03 per 100,000 [19].In contrast, the incidence of IIH increased threefold from 2.3 per 100,000 in 2003 to 7.8 per 100,000 in 2017 in England [5,20,21].This variance could be attributed to genuine regional differences in obesity rates, potential underdiagnosis of IIH in Asian patients due to the nuanced clinical presentation of IIH, or diagnostic criteria that may require regional validation.Detailed information from a broader spectrum of patients with IIH is required to fill this knowledge gap.
In this context, the present multicenter study aims to delineate the clinical profile and treatment outcomes of IIH in Korea.

Study setting
We retrospectively identified patients with IIH from the medical records of 11 hospitals, and concurrently collected data from a prospective headache registry in one hospital from January 2019 to December 2021.The inclusion criteria were modified from the diagnostic criteria revised by Friedman to encompass a broader spectrum of IIH manifestations [1], including milder elevation of intracranial pressure (ICP).Our working criteria for diagnosis of IIH were as follows: presence of either 1) CSF opening pressure of 25.0 cmCSF or greater on lumbar puncture or 2) opening pressure of 20.0 ~ 24.9 cmCSF, with at least one of the following: papilledema, unilateral or bilateral 6th nerve palsy, and neuroimaging findings suggestive of IIH including empty sella, flattening of the posterior globe, enlarged perioptic subarachnoid space and/or tortuous optic nerve, and transverse sinus stenosis.Patients with structural lesions that could have caused intracranial hypertension were also excluded.
The Institutional Review Board (IRB) of each participating hospital approved this study, for which the IRB number of the principal investigator was 2022AN0015.In one hospital, following a comprehensive explanation of the study details, written informed consent was obtained from all participants for the prospective design.In the remaining hospitals, the need for informed consent was waived by the ethics committee as the study comprised only a retrospective review of patient charts.

Clinical manifestation and laboratory findings
We collected data on preexisting medical conditions, including migraine, anemia, hypertension, polycystic ovary syndrome, sleep apnea, renal failure, chronic Medical treatment resulted in overall favorable short-term outcomes; however, the headaches did not improve in a small proportion of patients.Keywords Asian, Intracranial hypertension, Intracranial pressure, Papilledema, Pseudotumor cerebri obstructive pulmonary disease, systemic lupus erythematosus, pregnancy, adrenal insufficiency, Cushing's syndrome, hypo-or hyperthyroidism, hypoparathyroidism, Down syndrome, Turner syndrome, and craniosynostosis.Medication exposure within 1 year prior to the diagnosis was also collected, including systemic steroids, fluoroquinolones, tetracycline class antibiotics, levothyroxine, cyclosporine, tamoxifen, danazol, vitamin A derivatives, nalidixic acid, levonorgestrel implant, lithium, growth hormone, indomethacin, and cimetidine.
We identified patient characteristics and phenotypic ICHD-3 classification of headache (migraine, tensiontype, or other phenotype; episodic, chronic, vs. probable), and assessed medication overuse within three months prior to the diagnosis.Associated symptoms, including pulsatile tinnitus, transient visual obscuration, blurred vision or visual impairment, dizziness, double vision, photophobia, cognitive impairment, 6th nerve palsy, and neck or back pain, were also recorded.Additionally, we collected findings of CSF examinations, brain magnetic resonance imaging (MRI), and structural and functional tests of the optic nerves (e.g., fundus photography, optical coherence tomography, transorbital sonography, and perimetry).Based on these clinical and laboratory observations, we determined whether patients met the ICHD-3 criteria 7.1.1.Headache attributed to IIH.

Treatment
We reviewed the medications prescribed for IIH treatment, documented doses, and patient responses from the medical records.Procedures, including repetitive CSF drainage, lumbar drainage, optic nerve sheath penetration, shunting, and venous sinus stenting [22], and patient responses were also collected if performed.Treatment responses were categorized by the physicians as effective, partially effective, or ineffective based on their clinical judgment.

Outcome
We extracted medical records at 1 month (between 1 and 2 months) and at the second follow-up (between 3 and 6 months).For these two time points, we collected data on the modality used for the ICP follow-up and results, headache outcome (remission, ≥ 50% reduction in headache days, < 50% improvement, and no change/worsening), days with headache, moderate or severe headache, and acute medication use for the recent one month, changes in visual acuity and field defect if impaired at baseline, and overall impression of treatment outcomes (normalized, improved, no change, or worsened).

Statistical analysis
We summarized the descriptive data regarding demographics, clinical profiles, headache profiles, associated symptoms, treatment modalities and responses, and clinical outcomes in terms of ICP and headache.Data are presented as number (percentage), mean ± standard deviation (SD), or median (interquartile range, IQR), depending on the data distribution.Data were evaluated for normality using the Shapiro-Wilk test.Statistical significance was set at P < 0.05.difference.Statistical analyses were performed using the SPSS software (version 20.0;IBM Corp., Armonk, NY, USA).

Patient profiles
A total of 59 patients diagnosed with IIH were included in this study, of whom 83.1% were women.Among these patients, 45 (78.0%) exhibited a lumbar puncture pressure > 25.0 cmCSF, while the remaining 13 (22.0%)had lumbar puncture pressure ranging from 20.0 and 24.9 cmCSF.The distribution of the patients according to the inclusion criteria is shown in Fig. 1.
The median age at diagnosis was 32.0 (IQR, 14 -77) years.The mean BMI was 29.11 kg/m 2 (SD, 5.87), and 27 patients (45.8%) had a BMI of 30 or more.Of the 59 patients with IIH, 26 (44.1%) had a history of migraine, 11 (18.6%) had hypertension, and 7 (11.6%)had anemia.In addition, among the female participants, eight (16.3%) reported a history of polycystic ovary syndrome.The most common medication exposure within the one year prior to presentation was systemic steroids (n = 9, 15.3%).The demographic data and clinical characteristics of the study population are summarized in Table 1.

Characteristics of headache
Fifty-one patients (86.4%) with IIH had headaches; the clinical characteristics of these headache cases are summarized in Table 2.The median visual analog scale (VAS) score was 7.0 (IQR 5.8-8.0), and 39 patients (76.5%) had moderate to severe headache.Forty-five patients (88.2%) had at least one headache attack in the month preceding their diagnosis.The median number of headache days within this period was 29, with patients experiencing a median of 11 days of moderate-to-severe headache and 5 days of acute headache medication.Four (7.8%) patients were diagnosed with medication-overuse headache.
Among the 51 patients with headaches, 12 had transient visual obscuration, 26 had blurred vision or visual impairment, 15 had dizziness, 11 had double vision, and 6 had cranial nerve VI palsy.However, no significant differences in these cranial nerve-related symptoms were found between patients with and without headaches, as determined by chi-square analysis (Table 4).
In the MRI findings of the 22 patients with normal fundus examinations, the results varied; eight (36.4%)showed no abnormalities, five (22.7%) had findings consistent with empty sella, and two (9.1%) exhibited transverse sinus stenosis.Tortuous optic nerve and optic nerve cupping were each identified in one patient (4.5%).Three patients demonstrated two concurrent MRI abnormalities: empty sella with transverse sinus stenosis in two patients (9.1%) and a combination of tortuous optic nerve with transverse sinus stenosis in one patient (4.5%).Additionally, two patients (9.1%) exhibited a triad of abnormalities: empty sella, tortuous optic nerve, and transverse sinus stenosis.

MR venography was further performed in 33 patients
Fig. 1 Flowchart of patient enrollment.A total of 59 patients with idiopathic intracranial hypertension fulfilled the inclusion criteria.Based on the lumbar puncture pressure, 46 patients (78.0%) were classified into the group with lumbar puncture pressure > 25.0 cmCSF.Among these, 62.5% had papilledema.Further, 13 patients (22.0%) were classified into the group with lumbar puncture pressure between 20.0 and 24.9 cmCSF, and 53.8% of this group had papilledema (55.9%), with 19 patients (57.6%) showing transverse sinus stenosis.

Treatment
In this study, 56 patients were treated with medication or other procedures.Of these, 50 (89.3%)were treated with acetazolamide at a median dose of 750 mg (range, 250 to 3000 mg).Additionally, 11 (19.6%) were administered topiramate, and 17 (30.3%)were prescribed migraine preventive medications.Thirteen patients (23.2%) had undergone temporary or repeated lumbar drainage as part of their treatment regimen.
Of the 51 patients with IIH who reported experiencing headache, the headache status was assessed in 45 patients at the 1-2 months follow-up.Of the patients, 10 (22.2%) were in remission and 18 (40.0%)showed over 50% improvement, while eight (17.8%) had no interval change or worsened (Fig. 2B).At the 3-6 months follow-up, conducted among 39 patients, 24 (61.5%) of patients were in remission status or showed over 50% improvement, while six patients (15.4%) had no interval change or worsening in their headache status (Fig. 2B).

Discussion
This multicenter investigation details the clinical, ophthalmological, and neuroimaging characteristics of IIH in a Korean cohort.Our main findings are as follows: 1) Our patients had a less prominent obesity and female predominance compared to European and North American cohorts; 2) patients showed diverse headache patterns from episodic tension-type headache, chronic migraine, and medication-overuse headache; and 3) medical treatment yielded overall favorable treatment outcome on ICP evaluation, but approximately 15% of patients did not show improvement in their headache during follow-up.
To our knowledge, this is the largest multicenter study thus far to describe the detailed clinical characteristics, especially the neuroimaging findings, of patients with IIH in Asia.To date, there have been four case series on IIH in Asia [19,[23][24][25].In all previous series, the number of patients was small: 9 and 12 in two Chinese series, 2 in a Japanese series, and 10 in a Korean series.In our study, the mean BMI was 29 kg/m 2 , consistent with previous Asian studies but substantially lower than the 40 kg/ m 2 reported in the idiopathic intracranial hypertension treatment trial, which predominantly involved Caucasian or African American populations [26].In addition, our study reported a relatively low percentage of women (83.1%) in contrast to the higher rates of over 90% observed in most European and North American IIH studies [27][28][29][30][31][32].Taken together, so-called "atypical IIH"  B Headache status at 1-2 months (n = 45) and 3-6 months (n = 39) in patients with idiopathic intracranial hypertension who reported having a headache (n = 51) [33], i.e.IIH in non-obese and male patients, was not uncommon in our cohort, which represent the largest Asian cohort reported so far.Our findings emphasize the need for clinicians to adopt a broader diagnostic perspective, especially in Asian populations where IIH may not conform to the typical presentations observed in Western contexts.The headache patterns were diverse in our study.Headache was most common symptom, reported by 86% of patients; however, the phenotypes and chronicities of these headaches varied widely among individuals.Contrary to the prevalent assumption that secondary headache disorders usually present with daily persistent headaches, episodic headaches with migraine or tensiontype phenotypes also occurred, similar to the findings of the idiopathic intracranial hypertension treatment trial (IIHTT) [34].This suggests that the characteristics and severity of headaches may not be definitive in the diagnosis of IIH.Notably, blurred vision or visual impairment was less common in our study than in IIHTT, probably due to the difference in the inclusion criteria (mild papilledema was mandatory in IIHTT) [29,30], such as the requirement of mild papilledema in IIHTT.The clinical course of headaches associated with IIH after treatment also varied in this study.
Here, we describe detailed laboratory and neuroimaging findings in patients with IIH.Papilledema was present in only two-thirds of patients.In the remaining patients, brain MRI was crucial for the diagnosis of IIH, as was indicated in the latest criteria of Friedman et al. [1].Brain MRI with optic nerve thin-section images and MR venography should be performed to screen for IIH, especially in Asian patients, as atypical clinical profiles may be more common in Asian patients.
In terms of treatment modality and outcome, the majority of patients received medical treatment with acetazolamide, with approximately 86% reporting either effective or partial effective response.No surgical treatment was required, and no patients reported any visual loss.At 6-month follow-up, 25% had achieved ICP normalization and approximately 50% showed improved outcomes.Taken together, IIH has a benign course, and acetazolamide may be an effective treatment option in our cohort.However, approximately 15% of patients reported no change or worsening of headache status at follow-up between 3-6 months.The post-IIH headache and the role of calcitonin gene-related peptide monoclonal antibody therapy should be considered in selected cases [35,36].Nonpharmacological approaches to controlling IIH and headaches, such as diet restriction and weight loss, have also been reported to be effective in obese children or adults [37,38].
The strengths of this study include its multicenterbased approach and the analysis of the largest number of patients in Asia to date.Additionally, the low proportion of patients with vision loss and favorable prognosis are likely characteristics of intracranial hypertension in Asia.Finally, more than half of the patients had a BMI of less than 30, indicating that the importance of exploring risk factors other than obesity may need to be considered in Asian patients with IIH.However, this study has some limitations.Firstly, analysis in some centers was retrospective, and this study faced challenges with unstructured follow-up methods and timing.However, the follow-up completion rate was comparable to that reported in other prospective studies.Therefore, certain clinical features were not observed in this study.Nonetheless, considering the low prevalence of IIH in Asia, this study is valuable in presenting diverse headache patterns and non-headache presentations, treatment, and relatively benign outcomes in a broader spectrum of patients with IIH using multicenter data.

Table 1
Demographic characteristics of idiopathic intracranial hypertension in KoreaIQR interquartile range, BMI body mass index, SD standard deviation a A proportion among female patients

Table 2
Clinical features of headache in 51 patients with idiopathic intracranial hypertension

Table 3
Non-headache presentation of idiopathic intracranial hypertension

Table 4
Comparisons of associated symptoms between patients with and without headache